ack/lang/cem/cemcom.ansi/decspecs.c

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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* $Id$ */
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/* D E C L A R A T I O N S P E C I F I E R C H E C K I N G */
#include <assert.h>
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#include "decspecs.h"
#include "Lpars.h"
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#include "arith.h"
#include "type.h"
#include "level.h"
#include "def.h"
#include "error.h"
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extern char options[];
extern int level;
extern char *symbol2str();
extern struct type *qualifier_type();
struct decspecs null_decspecs;
void do_decspecs(register struct decspecs *ds)
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{
/* The provisional decspecs ds as obtained from the program
is turned into a legal consistent decspecs.
*/
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register struct type *tp = ds->ds_type;
assert(level != L_FORMAL1);
if (level == L_GLOBAL && (ds->ds_sc == AUTO || ds->ds_sc == REGISTER))
{
error("no global %s variable allowed", symbol2str(ds->ds_sc));
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ds->ds_sc = GLOBAL;
}
if (level == L_FORMAL2)
{
if (ds->ds_sc_given && ds->ds_sc != REGISTER)
{
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error("%s formal illegal", symbol2str(ds->ds_sc));
ds->ds_sc = FORMAL;
}
}
/* Since type qualifiers may be associated with types by means
of typedefs, we have to perform same basic tests down here.
*/
if (tp != (struct type *) 0)
{
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if ((ds->ds_typequal & TQ_VOLATILE) && (tp->tp_typequal & TQ_VOLATILE))
error("indirect repeated type qualifier");
if ((ds->ds_typequal & TQ_CONST) && (tp->tp_typequal & TQ_CONST))
error("indirect repeated type qualifier");
ds->ds_typequal |= tp->tp_typequal;
}
/* The tests concerning types require a full knowledge of the
type and will have to be postponed to declare_idf.
*/
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/* some adjustments as described in 3.5.2. */
if (tp == 0)
{
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ds->ds_notypegiven = 1;
tp = int_type;
}
if (ds->ds_size)
{
Begin to add `long long` to C compiler for linux386. Add long long type, but without literals; you can't say '123LL' yet. You can try constant operations, like `(long long)123 + 1`, but the compiler's `arith` type might not be wide enough. Conversions, shifts, and some other operations don't work in i386 ncg; I am using a union instead of conversions: union q { long long ll; unsigned long long ull; int i[2]; }; Hack plat/linux386/descr to enable long long (size 8, alignment 4) only for this platform. The default for other platforms is to disable long long (size -1). In lang/cem/cemcom.ansi, - BigPars, SmallPars: Add default size, alignment of long long. - align.h: Add lnglng_align. - arith.c: Convert arithmetic operands to long long or unsigned long long when necessary; avoid conversion from long long to long. Allow long long as an arithmetic, integral, or logical operand. - ch3.c: Handle long long like int and long when erroneously applying a selector, like `long long ll; ll.member` or `ll->member`. Add long long to integral and arithmetic types. - code.c: Add long long to type stabs for debugging. - conversion.c: Add long long to integral conversions. - cstoper.c: Write masks up to full_mask[8]. Add FIXME comment. - declar.g: Parse `long long` in code. - decspecs.c: Understand long long in type declarations. - eval.c: Add long long to operations, to generate code like `adi 8`. Don't use `ldc` with constant over 4 bytes. - ival.g: Allow long long in initializations. - main.c: Set lnglng_type and related values. - options.c: Add option like `-Vq8.4` to set long long to size 8, alignment 4. I chose 'q', because Perl's pack and Ruby's Array#pack use 'q' for 64-bit or long long values; it might be a reference to BSD's old quad_t alias for long long. - sizes.h: Add lnglng_size. - stab.c: Allow long long when writing the type stab for debugging. Switch from calculating the ranges to hardcoding them in strings; add 8-byte ranges as a special case. This also hardcodes the unsigned 4-byte range as "0;-1". Before it was either "0;-1" or "0;4294967295", depending on sizeof(long) in the compiler. - struct.c: Try long long bitfield, but it will probably give the error, "bit field type long long does not fit in a word". - switch.c: Update comment. - tokenname.c: Define LNGLNG (long long) like LNGDBL (long double). - type.c, type.str: Add lnglng_type and ulnglng_type. Add function no_long_long() to check if long long is disabled.
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int ds_isshort = (ds->ds_size == SHORT);
int ds_islong = (ds->ds_size == LONG);
if (ds->ds_typedef)
goto SIZE_ERROR;
/* yes */
if (tp == int_type)
{
if (ds_isshort)
tp = short_type;
Begin to add `long long` to C compiler for linux386. Add long long type, but without literals; you can't say '123LL' yet. You can try constant operations, like `(long long)123 + 1`, but the compiler's `arith` type might not be wide enough. Conversions, shifts, and some other operations don't work in i386 ncg; I am using a union instead of conversions: union q { long long ll; unsigned long long ull; int i[2]; }; Hack plat/linux386/descr to enable long long (size 8, alignment 4) only for this platform. The default for other platforms is to disable long long (size -1). In lang/cem/cemcom.ansi, - BigPars, SmallPars: Add default size, alignment of long long. - align.h: Add lnglng_align. - arith.c: Convert arithmetic operands to long long or unsigned long long when necessary; avoid conversion from long long to long. Allow long long as an arithmetic, integral, or logical operand. - ch3.c: Handle long long like int and long when erroneously applying a selector, like `long long ll; ll.member` or `ll->member`. Add long long to integral and arithmetic types. - code.c: Add long long to type stabs for debugging. - conversion.c: Add long long to integral conversions. - cstoper.c: Write masks up to full_mask[8]. Add FIXME comment. - declar.g: Parse `long long` in code. - decspecs.c: Understand long long in type declarations. - eval.c: Add long long to operations, to generate code like `adi 8`. Don't use `ldc` with constant over 4 bytes. - ival.g: Allow long long in initializations. - main.c: Set lnglng_type and related values. - options.c: Add option like `-Vq8.4` to set long long to size 8, alignment 4. I chose 'q', because Perl's pack and Ruby's Array#pack use 'q' for 64-bit or long long values; it might be a reference to BSD's old quad_t alias for long long. - sizes.h: Add lnglng_size. - stab.c: Allow long long when writing the type stab for debugging. Switch from calculating the ranges to hardcoding them in strings; add 8-byte ranges as a special case. This also hardcodes the unsigned 4-byte range as "0;-1". Before it was either "0;-1" or "0;4294967295", depending on sizeof(long) in the compiler. - struct.c: Try long long bitfield, but it will probably give the error, "bit field type long long does not fit in a word". - switch.c: Update comment. - tokenname.c: Define LNGLNG (long long) like LNGDBL (long double). - type.c, type.str: Add lnglng_type and ulnglng_type. Add function no_long_long() to check if long long is disabled.
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else if (ds_islong)
tp = long_type;
Begin to add `long long` to C compiler for linux386. Add long long type, but without literals; you can't say '123LL' yet. You can try constant operations, like `(long long)123 + 1`, but the compiler's `arith` type might not be wide enough. Conversions, shifts, and some other operations don't work in i386 ncg; I am using a union instead of conversions: union q { long long ll; unsigned long long ull; int i[2]; }; Hack plat/linux386/descr to enable long long (size 8, alignment 4) only for this platform. The default for other platforms is to disable long long (size -1). In lang/cem/cemcom.ansi, - BigPars, SmallPars: Add default size, alignment of long long. - align.h: Add lnglng_align. - arith.c: Convert arithmetic operands to long long or unsigned long long when necessary; avoid conversion from long long to long. Allow long long as an arithmetic, integral, or logical operand. - ch3.c: Handle long long like int and long when erroneously applying a selector, like `long long ll; ll.member` or `ll->member`. Add long long to integral and arithmetic types. - code.c: Add long long to type stabs for debugging. - conversion.c: Add long long to integral conversions. - cstoper.c: Write masks up to full_mask[8]. Add FIXME comment. - declar.g: Parse `long long` in code. - decspecs.c: Understand long long in type declarations. - eval.c: Add long long to operations, to generate code like `adi 8`. Don't use `ldc` with constant over 4 bytes. - ival.g: Allow long long in initializations. - main.c: Set lnglng_type and related values. - options.c: Add option like `-Vq8.4` to set long long to size 8, alignment 4. I chose 'q', because Perl's pack and Ruby's Array#pack use 'q' for 64-bit or long long values; it might be a reference to BSD's old quad_t alias for long long. - sizes.h: Add lnglng_size. - stab.c: Allow long long when writing the type stab for debugging. Switch from calculating the ranges to hardcoding them in strings; add 8-byte ranges as a special case. This also hardcodes the unsigned 4-byte range as "0;-1". Before it was either "0;-1" or "0;4294967295", depending on sizeof(long) in the compiler. - struct.c: Try long long bitfield, but it will probably give the error, "bit field type long long does not fit in a word". - switch.c: Update comment. - tokenname.c: Define LNGLNG (long long) like LNGDBL (long double). - type.c, type.str: Add lnglng_type and ulnglng_type. Add function no_long_long() to check if long long is disabled.
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else
{
assert(ds->ds_size == LNGLNG);
if (no_long_long())
tp = error_type;
else
tp = lnglng_type;
}
}
Begin to add `long long` to C compiler for linux386. Add long long type, but without literals; you can't say '123LL' yet. You can try constant operations, like `(long long)123 + 1`, but the compiler's `arith` type might not be wide enough. Conversions, shifts, and some other operations don't work in i386 ncg; I am using a union instead of conversions: union q { long long ll; unsigned long long ull; int i[2]; }; Hack plat/linux386/descr to enable long long (size 8, alignment 4) only for this platform. The default for other platforms is to disable long long (size -1). In lang/cem/cemcom.ansi, - BigPars, SmallPars: Add default size, alignment of long long. - align.h: Add lnglng_align. - arith.c: Convert arithmetic operands to long long or unsigned long long when necessary; avoid conversion from long long to long. Allow long long as an arithmetic, integral, or logical operand. - ch3.c: Handle long long like int and long when erroneously applying a selector, like `long long ll; ll.member` or `ll->member`. Add long long to integral and arithmetic types. - code.c: Add long long to type stabs for debugging. - conversion.c: Add long long to integral conversions. - cstoper.c: Write masks up to full_mask[8]. Add FIXME comment. - declar.g: Parse `long long` in code. - decspecs.c: Understand long long in type declarations. - eval.c: Add long long to operations, to generate code like `adi 8`. Don't use `ldc` with constant over 4 bytes. - ival.g: Allow long long in initializations. - main.c: Set lnglng_type and related values. - options.c: Add option like `-Vq8.4` to set long long to size 8, alignment 4. I chose 'q', because Perl's pack and Ruby's Array#pack use 'q' for 64-bit or long long values; it might be a reference to BSD's old quad_t alias for long long. - sizes.h: Add lnglng_size. - stab.c: Allow long long when writing the type stab for debugging. Switch from calculating the ranges to hardcoding them in strings; add 8-byte ranges as a special case. This also hardcodes the unsigned 4-byte range as "0;-1". Before it was either "0;-1" or "0;4294967295", depending on sizeof(long) in the compiler. - struct.c: Try long long bitfield, but it will probably give the error, "bit field type long long does not fit in a word". - switch.c: Update comment. - tokenname.c: Define LNGLNG (long long) like LNGDBL (long double). - type.c, type.str: Add lnglng_type and ulnglng_type. Add function no_long_long() to check if long long is disabled.
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else if (tp == double_type && ds_islong)
{
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tp = lngdbl_type;
}
else
{
SIZE_ERROR: error("%s with illegal type", symbol2str(ds->ds_size));
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}
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ds->ds_notypegiven = 0;
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}
if (ds->ds_unsigned)
{
register int ds_isunsigned = (ds->ds_unsigned == UNSIGNED);
if (ds->ds_typedef)
goto SIGN_ERROR;
/* yes */
/*
* All integral types are signed by default (char too),
* so the case that ds->ds_unsigned == SIGNED can be ignored.
*/
if (tp == schar_type)
{
if (ds_isunsigned)
tp = uchar_type;
}
else if (tp == short_type)
{
if (ds_isunsigned)
tp = ushort_type;
}
else if (tp == int_type)
{
if (ds_isunsigned)
tp = uint_type;
}
else if (tp == long_type)
{
if (ds_isunsigned)
tp = ulong_type;
}
Begin to add `long long` to C compiler for linux386. Add long long type, but without literals; you can't say '123LL' yet. You can try constant operations, like `(long long)123 + 1`, but the compiler's `arith` type might not be wide enough. Conversions, shifts, and some other operations don't work in i386 ncg; I am using a union instead of conversions: union q { long long ll; unsigned long long ull; int i[2]; }; Hack plat/linux386/descr to enable long long (size 8, alignment 4) only for this platform. The default for other platforms is to disable long long (size -1). In lang/cem/cemcom.ansi, - BigPars, SmallPars: Add default size, alignment of long long. - align.h: Add lnglng_align. - arith.c: Convert arithmetic operands to long long or unsigned long long when necessary; avoid conversion from long long to long. Allow long long as an arithmetic, integral, or logical operand. - ch3.c: Handle long long like int and long when erroneously applying a selector, like `long long ll; ll.member` or `ll->member`. Add long long to integral and arithmetic types. - code.c: Add long long to type stabs for debugging. - conversion.c: Add long long to integral conversions. - cstoper.c: Write masks up to full_mask[8]. Add FIXME comment. - declar.g: Parse `long long` in code. - decspecs.c: Understand long long in type declarations. - eval.c: Add long long to operations, to generate code like `adi 8`. Don't use `ldc` with constant over 4 bytes. - ival.g: Allow long long in initializations. - main.c: Set lnglng_type and related values. - options.c: Add option like `-Vq8.4` to set long long to size 8, alignment 4. I chose 'q', because Perl's pack and Ruby's Array#pack use 'q' for 64-bit or long long values; it might be a reference to BSD's old quad_t alias for long long. - sizes.h: Add lnglng_size. - stab.c: Allow long long when writing the type stab for debugging. Switch from calculating the ranges to hardcoding them in strings; add 8-byte ranges as a special case. This also hardcodes the unsigned 4-byte range as "0;-1". Before it was either "0;-1" or "0;4294967295", depending on sizeof(long) in the compiler. - struct.c: Try long long bitfield, but it will probably give the error, "bit field type long long does not fit in a word". - switch.c: Update comment. - tokenname.c: Define LNGLNG (long long) like LNGDBL (long double). - type.c, type.str: Add lnglng_type and ulnglng_type. Add function no_long_long() to check if long long is disabled.
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else if (tp == lnglng_type)
{
if (ds_isunsigned)
tp = ulnglng_type;
}
else
{
SIGN_ERROR: error("%s with illegal type",
symbol2str(ds->ds_unsigned));
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}
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ds->ds_notypegiven = 0;
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}
ds->ds_type = qualifier_type(tp, ds->ds_typequal);
}
/* Make tp into a qualified type. This is not as trivial as it
may seem. If tp is a fundamental type the qualified type is
either existent or will be generated.
In case of a complex type the top of the type list will be
replaced by a qualified version.
*/
struct type *qualifier_type(register struct type *tp, int typequal)
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{
register struct type *dtp = tp;
register int fund = tp->tp_fund;
while (dtp && dtp->tp_typequal != typequal)
dtp = dtp->next;
if (!dtp)
{
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dtp = create_type(fund);
dtp->tp_unsigned = tp->tp_unsigned;
dtp->tp_align = tp->tp_align;
dtp->tp_typequal = typequal;
dtp->tp_size = tp->tp_size;
#if 0
/* The tp_function field does not exist now. See the comment in the
function_of() routine.
*/
dtp->tp_function = tp->tp_function;
#endif
switch (fund)
{
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case ARRAY:
if (typequal)
{
tp->tp_up = qualifier_type(tp->tp_up, typequal);
dtp->tp_typequal = typequal = 0;
}
goto nottagged;
case FIELD:
dtp->tp_field = tp->tp_field;
/* fallthrough */
case POINTER:
case FUNCTION: /* dont't assign tp_proto */
nottagged: dtp->tp_up = tp->tp_up;
break;
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case STRUCT:
case UNION:
case ENUM:
dtp->tp_idf = tp->tp_idf;
dtp->tp_sdef = tp->tp_sdef;
break;
default:
break;
}
dtp->next = tp->next; /* don't know head or tail */
tp->next = dtp;
}
return (dtp);
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}